International audienceParamagnetic centers originate from unpaired electrons that are intrinsic features of organic radicals and of many transition metal ions. In this lecture, we will illustrate how unpaired electrons affect the NMR spectrum of the surrounding nuclear spins, namely by altering their chemical shifts and by increasing their relaxation rates. The effects arising from paramagnetism depend in a well-defined manner on th e electronic configuration of the metal and on the structure and dynamics of the molecule, providing information on the electronic states of the paramagnetic center, as well as a number of structural restraints with wide ranging implications for molecular and biological sciences
We present a theory for the temperature-dependent nuclear magnetic shielding tensor of molecules wit...
Expressions are derived describing nuclear spin relaxation in paramagnetic salt solutions under cond...
11B NMR chemical shifts of structurally similar diamagnetic and paramagnetic molecules are obtained ...
In this Thesis, structure and dynamics of paramagnetic complexes for medical application are studied...
Paramagnetic species in solution considerably enhance nuclear spin relaxation rates in nuclear magne...
Paramagnetic species in solution enhance nuclear spin relaxation rates in nuclear magnetic resonance...
We report an experimental observation of 31 P NMR resonances shifted by over 10 000 ppm (meaning per...
The NMR (nuclear magnetic resonance) paramagnetic relaxation enhancement (NMR‐PRE) that is produced ...
Paramagnetic metal ions accelerate nuclear spin relaxation; this effect is widely used for distance ...
The enhancement of nuclear magnetic resonance (NMR) relaxation rates produced by paramagnetic solute...
The field of paramagnetic NMR has expanded considerably in recent years, both in solution and the so...
Abstract: Paramagnetism causes broadening of the NMR lines and therefore makes dif®cult the detectio...
Paramagnetic metal ions accelerate nuclear spin relaxation; this effect is widely used for distance ...
Dissolved paramagnetic ions generally provide an efficient mechanism for the relaxation of nuclear s...
Abstract: Magic-angle-spinning solid-state nuclear magnetic resonance (SSNMR) studies of natively di...
We present a theory for the temperature-dependent nuclear magnetic shielding tensor of molecules wit...
Expressions are derived describing nuclear spin relaxation in paramagnetic salt solutions under cond...
11B NMR chemical shifts of structurally similar diamagnetic and paramagnetic molecules are obtained ...
In this Thesis, structure and dynamics of paramagnetic complexes for medical application are studied...
Paramagnetic species in solution considerably enhance nuclear spin relaxation rates in nuclear magne...
Paramagnetic species in solution enhance nuclear spin relaxation rates in nuclear magnetic resonance...
We report an experimental observation of 31 P NMR resonances shifted by over 10 000 ppm (meaning per...
The NMR (nuclear magnetic resonance) paramagnetic relaxation enhancement (NMR‐PRE) that is produced ...
Paramagnetic metal ions accelerate nuclear spin relaxation; this effect is widely used for distance ...
The enhancement of nuclear magnetic resonance (NMR) relaxation rates produced by paramagnetic solute...
The field of paramagnetic NMR has expanded considerably in recent years, both in solution and the so...
Abstract: Paramagnetism causes broadening of the NMR lines and therefore makes dif®cult the detectio...
Paramagnetic metal ions accelerate nuclear spin relaxation; this effect is widely used for distance ...
Dissolved paramagnetic ions generally provide an efficient mechanism for the relaxation of nuclear s...
Abstract: Magic-angle-spinning solid-state nuclear magnetic resonance (SSNMR) studies of natively di...
We present a theory for the temperature-dependent nuclear magnetic shielding tensor of molecules wit...
Expressions are derived describing nuclear spin relaxation in paramagnetic salt solutions under cond...
11B NMR chemical shifts of structurally similar diamagnetic and paramagnetic molecules are obtained ...
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